Absence of Black Holes at LHC due to Gravity's Rainbow

TL;DR

This paper explores how gravity's rainbow modifies black hole production at colliders, suggesting that black hole remnants prevent their formation at LHC energies, explaining their absence.

Contribution

It introduces the concept of black hole remnants in gravity's rainbow framework and explains their role in the non-observation of black holes at LHC energies.

Findings

Existence of black hole remnants in higher dimensions.

Remnant mass exceeds current collider energies.

Potential for black hole production at future higher energies.

Abstract

In this paper, we investigate the effect of Planckian deformation of quantum gravity on the production of black holes at colliders using the framework of gravity's rainbow. We demonstrate that a black hole remnant exists for Schwarzschild black holes in higher dimensions using gravity's rainbow. The mass of this remnant is found to be greater than the energy scale at which experiments were performed at the LHC. We propose this as a possible explanation for the absence of black holes at the LHC. Furthermore, we demonstrate that it is possible for black holes in six (and higher) dimensions to be produced at energy scales that will be accessible in the near future.